MULTI-TAPPING NUMPAD

Abstract

A mobile phone including a number keypad for entering the symbols 0-9, # and *, the keypad including at most five keys at least one of which corresponds to a list of at least two symbols, wherein the nth symbol in the list corresponding to a key is accessed by tapping on the key n times, with cycling from the end of the list back to the beginning of the list. A portable media player with dual use as a cell phone is also described and claimed.

Description

PRIORITY REFERENCE TO RELATED APPLICATIONS

This application claims benefit of assignee's provisional patent applications U.S. Provisional Application No. 61/009,523, entitled MULTI-TAPPING NUMPAD, filed on Dec. 28, 2007 by inventor Uri Ron.

FIELD OF THE INVENTION

The field of the present invention is keypads for mobile phones.

BACKGROUND OF THE INVENTION

Mobile phones are becoming increasingly popular, and people generally carry their phones with them at all times. As such, it is of advantage to reduce the sizes and weights of phones, in order to make them more convenient to carry.

One of the main limiting factors of miniaturization of phone is keypad size. Conventional keypads include twelve keys, and have already been reduced in size to the threshold where it is difficult for a person to dial phone numbers quickly and accurately.

Ideally, by reducing the number of keys in a phone's keypad, the size of the phone may be reduced. However, with fewer than twelve keys there are not enough keys to support the ten symbols 0-9, and the two symbols * and #, which are required for dialing.

Today, miniature phones have been integrated within watches. Cell phone watches, such as the M500 Cellwatch™ manufactured and distributed by My Mobile Watch of Shenzhen City, China, and the W-100 Watch manufactured by Hyundai Corporation of Seoul, Korea, use touch screens for dialing. Other cell phone watches use scrolling between digits to select them one at a time for dialing.

These and other miniature phones use entry mechanisms that are cumbersome, or use pre-defined phone numbers for short code dialing. It would thus be of advantage to provide a miniature phone keypad with a simple intuitive mechanism for entering phone numbers.

SUMMARY OF THE DESCRIPTION

Aspects of the present invention provide a flexible keypad with at most five keys for use in dialing phone numbers on miniature phones. The miniature phones may have physical dimensions on the order of 2.5 cm×5 cm or smaller.

There is thus provided in accordance with an embodiment of the present invention a mobile phone including a number keypad for entering the symbols 0-9, # and *, the keypad including at most five keys at least one of which corresponds to a list of at least two symbols, wherein the n^th symbol in the list corresponding to a key is accessed by tapping on the key n times, with cycling from the end of the list back to the beginning of the list.

There is additionally provided in accordance with an embodiment of the present invention a mobile phone including a number keypad for entering the symbols 0-9, # and *, the keypad including at most five keys at least one of which corresponds to a list of at least two symbols, wherein pressing and holding a key causes symbols in the list corresponding to the key to be accessed sequentially in time, with cycling from the end of the list back to the beginning of the list.

There is moreover provided in accordance with an embodiment of the present invention a portable media player with dual use as a cell phone, including a keypad with a plurality of keys, at least one of which is used for dialing a phone number and corresponds to a list of at least two symbols, wherein the n^th symbol in the list corresponding to a key is accessed by tapping on the key n times, with cycling from the end of the list back to the beginning of the list.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be more fully understood and appreciated from the following detailed description, taken in conjunction with the drawings in which:

FIG. 1 is an illustration of miniature mobile phones with reduced keypads, in accordance with an embodiment of the present invention;

FIG. 2A is an illustration of a small mobile phone with a multi-tap keypad with five keys for accessing the symbols 0-9, * and #, with symbols corresponding to keys engraved on the keys, in accordance with an embodiment of the present invention;

FIG. 2B is an illustration of a small mobile phone with a multi-tap keypad with five keys for accessing the symbols 0-9, * and #, with symbols corresponding to keys presented on a display, in accordance with an embodiment of the present invention;

FIG. 3A is an illustration of a small mobile phone with a multi-tap keypad used for composing SMS messages, in accordance with an embodiment of the present invention; and

FIG. 3B is an illustration of the small mobile phone of FIG. 3A used for dialing phone numbers, in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION

Aspects of the present invention relate to miniature mobile phones with reduced keypads, such as phone 100 and keypad 110, and phone 150 and keypad 160 illustrated in FIG. 1. As shown in FIG. 1, phones 100 and 150 are on the order of 2.5 cm×5 cm, which is smaller than a standard sized credit card.

Reference is now made to FIG. 2A, which is an illustration of a small mobile phone 200 with a multi-tap keypad with five keys for accessing the symbols 0-9, * and #, with symbols corresponding to keys engraved on the keys, in accordance with an embodiment of the present invention. Mobile phone 200 has a reduced keypad with four keys 210 surrounding a center key 220, similar to the layout of the keypad 110 in FIG. 1. Each of the four keys 210 has a list of three symbols printed on the keys. The list of symbols for a key represents the symbols that that key can enter. Key 220 is a select or general function key.

In one embodiment of the present invention, tapping a key 210 n times accesses the n^th symbol in the list printed on the key. Additional taps on a key 210 beyond three taps, cycle back around to the beginning of the list. The rightmost key 210, for example, cycles through 4-5-6-4-5-6-4-etc. when tapped successively. Tapping on this key once accesses 4, tapping twice accesses 5, tapping three time accesses 6, tapping four times accesses 4, tapping five times accesses 5, etc. Tapping on a different key, or stopping the tapping for a pre-designated period of time, causes the currently accessed symbol to be entered.

In another embodiment of the present invention, pressing and holding a key 210 causes symbols to be accessed in time in a sequential and cyclic order, from the list of symbols printed on the key. Releasing the key causes a currently accessed symbol to be entered.

In yet another embodiment of the present invention, both tapping and pressing are enabled, and symbols can be accessed by either tapping one or more times on a key, or by pressing and holding the key. TABLE I summarizes these two modes of symbol access and entry.

TABLE I
Modes for entering symbols from a list
of symbols corresponding to a key
	Symbol Access	Symbol Entry
Multi-tap mode	Tapping on the key one	Stopping to tap, or
	or more times	tapping on a different
		key
Press and hold mode	Pressing and holding the	Releasing the key
	key

The four keys 210 span twelve symbols, resulting in a ratio of 3 symbols per key. Conventional telephone keypads span the 26 alphabetical characters using eight keys, resulting in a ratio of 3.25 symbols per key. As such, the keypad of mobile phone 200 is more efficient for data entry than conventional keypads are.

It will be appreciated by those skilled in the art that the correspondence between symbols and keys is arbitrary for the present invention. The lists of symbols illustrated in FIG. 2A are 1-2-3, 4-5-6, 7-8-9 and 0-*-#, but other lists may be implemented instead. For example, 0-1-2, 3-4-5, 6-7-8 and 9-*-#. In addition, the present invention may be implemented with fewer keys than shown in FIG. 2A. With three keys, for example, the symbols may be distributed into lists as 1-2-3-4, 5-6-7-8 and 9-0-*-#, with 4 symbols per key.

Reference is now made to FIG. 2B, which is an illustration of a mobile phone 250 with a multi-tap keypad with five keys for accessing the symbols 0-9, * and #, with symbols corresponding to keys presented on a display, in accordance with an embodiment of the present invention. Mobile phone 250 has a reduced keypad with four keys 260 surrounding a center key 270, and has a display 280. Each of the four keys 260 corresponds to a list of three symbols. A visual snapshot of the four keys 260 and their corresponding lists of symbols are rendered in display 280. Symbols from the list corresponding to a key 260 are entered for dialing by either tapping on the key one or more times, or by pressing and holding the key, as described hereinabove with reference to FIG. 2A.

It will be appreciated by those skilled in the art that the present invention may be embodied in a mobile phone without a display screen. For such an embodiment, the symbols a user has entered can be presented to him by an audio read-out, or by a small display field on the mobile phone. Alternatively, there may not be a presentation of symbols entered, relying instead on the user's memory. An embodiment without a display screen enables the size of the mobile phone to be significantly reduced.

In this regard, an advantage of the present invention is the intuitiveness of the keys and their symbol lists, making it easy for users to memorize locations of keys and their corresponding lists. As such, users can dial without looking at the keys or at the display screen. Such advantage is particularly useful in dark settings without background light, and where the keys are not backlit.

In accordance with the present invention, physical engravings and physical features are added to the keys, as an assist for dialing without looking at the keys.

Reference is now made to FIGS. 3A and 3B, which are illustration of a small mobile phone with a multi-tap keypad, in accordance with an embodiment of the present invention. FIG. 3A shows use of the small mobile phone for composing SMS messages, and FIG. 3B shows use of the small mobile phone for dialing phone numbers. When the keypad is used for composing SMS messages, the display presents the 26 message-related symbols, a-z, according to four keys of the keypad, corresponding to 6.5 symbols per key. When the keypad is used for dialing, the display presents 12 dialing-related symbols according to four keys of the keypad. By presenting different lists of symbols on the display, multiple use is made of the same reduced keypad.

Those skilled in the art will appreciate from FIG. 1 that the present invention supports an unlimited variety of keypad designs, with customized looks for different vendors.

Moreover, the present invention enables dual use of keypads designed for electronics devices other than phones, for use with phones as well. Keypads 110 and 160 shown in FIG. 1 were originally designed for portable media players. Using the present invention, the portable media players may be enhanced with phone functionality and their keypads may be used both for playing media and for dialing phone calls.

In the foregoing specification, the invention has been described with reference to specific exemplary embodiments thereof. It will, however, be evident that various modifications and changes may be made to the specific exemplary embodiments without departing from the broader spirit and scope of the invention as set forth in the appended claims. Accordingly, the specification and drawings are to be regarded in an illustrative rather than a restrictive sense.

Claims

1-12. (canceled)

13. An electronic data processor comprising:

a key for entering a symbol from among a plurality of symbols into an electronic data processor for processing by the electronic data processor, each of the plurality of symbols having a distinct sound associated therewith;

an audio processor for generating sound; and

circuitry coupled with said key and said audio processor that causes said audio processor to sequentially generate the sound associated with each of the plurality of symbols in response to successive tapping of the key.

14. The electronic data processor of claim 13 wherein said circuitry causes a symbol to be entered into the electronic device in response to stopping the successive tapping of said key when said audio processor generates the sound associated with that symbol.

15. The electronic data processor of claim 13 wherein said circuitry causes said audio processor to cycle back to the beginning of the sequence in response to further successive tapping of said key after said audio processor has generated the sound associated with the last symbol in the sequence.

16. The electronic data processor of claim 13 wherein the plurality of symbols is shown on top of said key.

17. The electronic data processor of claim 13 wherein said circuitry causes the plurality of symbols that may be entered by said key to change to a different plurality of symbols, each of the different plurality of symbols also having a distinct sound associated therewith.

18. An electronic data processor comprising:

a key for entering a symbol from among a plurality of symbols into an electronic data processor for processing by the electronic data processor, each symbol having a distinct sound associated therewith;

an audio processor for generating sound; and

circuitry coupled with said key and said audio processor that causes said audio processor to sequentially generate the sound associated with each symbol in response to prolonged depressing of the key.

19. The electronic data processor of claim 18 wherein said circuitry causes a symbol to be entered into the electronic device in response to releasing the prolonged depressing of the key when said audio processor generates the sound associated with that symbol.

20. The electronic data processor of claim 18 wherein said circuitry causes said audio processor to cycle back to the beginning of the sequence in response to further prolonged depressing of said key after said audio processor has generated the sound associated with the last symbol in the sequence.

21. The electronic data processor of claim 18 wherein the plurality of symbols is shown on top of said key.

22. The electronic data processor of claim 18 wherein said circuitry causes the plurality of symbols that may be entered by said key to change to a different plurality of symbols, each of the different plurality of symbols also having a distinct sound associated therewith.

23. An electronic data processor comprising:

a key for entering a symbol from among a plurality of symbols into an electronic data processor for processing by the electronic data processor;

a display for displaying symbols; and

circuitry coupled with said key and said display that causes the plurality of symbols to be displayed sequentially on said display in response to successive tapping of the key, and also causes the plurality of symbols to be displayed sequentially on said display in response to prolonged depressing of the key.

24. The electronic data processor of claim 23 wherein said circuitry causes a symbol to be entered into the electronic device in response to stopping the successive tapping of said key when that symbol is being displayed on said display.

25. The electronic data processor of claim 23 wherein said circuitry causes a symbol to be entered into the electronic device in response to releasing the prolonged holding of said key when that symbol is being displayed on said display.

26. The electronic data processor of claim 23 wherein said circuitry causes display of the symbols on said display to cycle back to the beginning of the sequence in response to further successive tapping of said key after the last symbol in the sequence has been displayed on said display.

27. The electronic data processor of claim 23 wherein said circuitry causes display of the symbols on said display to cycle back to the beginning of the sequence in response to further prolonged depressing of said key after the last symbol in the sequence has been displayed on said display.

28. The electronic data processor of claim 23 wherein the plurality of symbols is shown on top of said key.

29. The electronic data processor of claim 23 wherein said circuitry causes the plurality of symbols that may be entered by said key to change to a different plurality of symbols.